Archivio Istituzionale della RicercaDeep Learning, and in particular, Deep Neural Network (DNN) is nowadays widely used in many scenarios, including safety-critical applications such as autonomous driving. In this context, besides energy efficiency and performance, reliability plays a crucial role since a system failure can jeopardize human life. As with any other device, the reliability of hardware architectures running DNNs has to be evaluated, usually through costly fault injection campaigns. This paper explores approximation and fault resiliency of DNN accelerators. We propose to use approximate (AxC) arithmetic circuits to agilely emulate errors in hardware without performing fault injection on the DNN. To allow fast evaluation of AxC DNN, we developed an efficient GPU-based simulation framework. Further, we propose a fine-grain analysis of fault resiliency by examining fault propagation and masking in networks.
Special Session: Approximation and Fault Resiliency of DNN Accelerators / Ahmadilivani, Mh; Barbareschi, M; Barone, S; Bosio, A; Daneshtalab, M; Della Torca, S; Gavarini, G; Jenihhin, M; Raik, J; Ruospo, A; Sanchez, E; Taheri, M. - (2023), pp. 1-10. (Intervento presentato al convegno 2023 IEEE 41st VLSI Test Symposium (VTS) tenutosi a San Diego (USA) nel 24-26 April 2023) [10.1109/VTS56346.2023.10140043].
Special Session: Approximation and Fault Resiliency of DNN Accelerators
Barone, S;Bosio, A;Gavarini, G;Ruospo, A;Sanchez, E;
2023
Abstract
Deep Learning, and in particular, Deep Neural Network (DNN) is nowadays widely used in many scenarios, including safety-critical applications such as autonomous driving. In this context, besides energy efficiency and performance, reliability plays a crucial role since a system failure can jeopardize human life. As with any other device, the reliability of hardware architectures running DNNs has to be evaluated, usually through costly fault injection campaigns. This paper explores approximation and fault resiliency of DNN accelerators. We propose to use approximate (AxC) arithmetic circuits to agilely emulate errors in hardware without performing fault injection on the DNN. To allow fast evaluation of AxC DNN, we developed an efficient GPU-based simulation framework. Further, we propose a fine-grain analysis of fault resiliency by examining fault propagation and masking in networks.
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https://hdl.handle.net/11583/2982809